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SCEJ 81st Annual Meeting (2016)

Hall and day program

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Hall K, Day 1

Most recent update: 2016-02-26 18:17:04
Abstract is now open! Click Paper ID.
TimePaper
ID		Title / AuthorsKeywordsTopic codeAck.
number
Fluid & particle processing
(13:00–13:20) (Chair: Kajiwara Toshihisa)
13:0013:20K113[The SCEJ Award for Outstanding Research Achievement] Detailed elucidation of flow characteristics and mechanism of single bubbles and drops rising through viscous fluids
(Tokushima U.) Ohta Mitsuhiro
Bubble rise motion
Drop rise motion
CFD
2-e565
(13:20–15:20) (Chair: Ishihara Shingo)
13:2013:40K114Direct numerical simulation of the pressure spray
(Tohoku U.) *Soma T., Saito Y., Matsushita Y., Aoki H., (Hirosaki U.) Inamura T., (NIT Hachinohe) Daikoku M., (Honda Eng.) Fukuno J.
Volume of Fluid
Pressure spray
Atomization
2-e307
13:4014:00K115Visualization of the fragmented bubble flow supplied from a nozzle with the guide plate
(SUMITOMO METAL MINING) *Tsuchioka K., Maki K., Suganuma S., (Kyushu U.) Aramaki S.
bubble flow
gas nozzle
Gas-liquid stirring
2-b433
14:0014:20K116Numerical modeling of multiphase flow in oil spill
(Osaka U.) *Takagi Y., Ochi T., Sugiyama M., Okano Y., Kyaw W. P., Yamada A., Kato N.
Oil Spill
Multi Phase Flow
Numerical Simulation
2-e723
14:2014:40K117Effect of wettability of solid surface on particle-particle adhesion
(Osaka Pref. U.) *Kan Hiroyuki, Nakamura Hideya, Watano Satoru
wet granulation
dynamic liquid bridge
numerical simulation
2-e444
14:4015:00K118Understanding of the origin of collective motion in self-propelled particles systems
(Kyoto U.) *Oyama Norihiro, Molina John, Yamamoto Ryoichi
Squirmer Model
Collective Motion
Hydrodynamics
2-a244
15:0015:20K119Effect of time scale of the particles added to turbulent flow in a vertical channel
(Kitami Tech) Mito Y.
Gas-particle flow
Turbulence modulation
Time-scale effect
2-e592
(15:20–17:20) (Chair: Takagi Youhei, Shimada Naoki)
15:2015:40K120Lift force acting on a spherical liquid particle moving in a simple shear flow at low Re number I. Derivation of governing equations
(Kogakuin U.) Ueyama Korekazu
lift force
convection term
governing equation
2-e29
15:4016:00K121Lift force acting on a spherical liquid particle moving in a simple shear flow at low Re number II. General solutions
(Kogakuin U.) Ueyama Korekazu
lift force
convection term
general solution
2-e30
16:0016:20K122Lift force acting on a spherical liquid particle moving in a simple shear flow at low Re number III. Boundary conditions
(Kogakuin U.) Ueyama Korekazu
lift force
convection term
boundary condition
2-e31
16:2016:40K123Lift force acting on a spherical liquid particle moving in a simple shear flow at low Re number IV. Distributions of additional velocity and static pressure
(Kogakuin U.) Ueyama Korekazu
lift force
convection term
additional velocity and pressure
2-e32
16:4017:00K124Lift force acting on a spherical liquid particle moving in a simple shear flow at low Re number V. Lift force
(Kogakuin U.) Ueyama Korekazu
lift force
convection term
virtual force term
2-e33
17:0017:20K125Lift force acting on a spherical liquid particle moving in a simple shear flow at low Re number VI. Virtual force term
(Kogakuin U.) Ueyama K.
2-fluid model equation
interaction term
virtual force term
2-e341
Technical program
SCEJ 81st Annual Meeting (2016)
© 2016 The Society of Chemical Engineers, Japan. All rights reserved.
Most recent update: 2016-02-26 18:17:04
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